AI Article Synopsis
- Chylomicron remnant catabolism involves apolipoprotein E (apo E) binding to hepatic lipoprotein receptors, specifically the apo B,E(LDL) receptor and a unique apo E receptor.
- The study identified three proteins that bind to apo E-containing lipoproteins, including a 56-kDa band with subunits from F1-ATPase and a 59-kDa protein that binds lipid-free and lipid-bound apo E in different conditions.
- These findings suggest that liver cells have multiple proteins, beyond the apo B,E(LDL) receptor, that interact with apo E-containing lipoproteins, though their exact roles in metabolism need further investigation.
Article Abstract
Chylomicron remnant catabolism appears to be mediated by apolipoprotein (apo) E binding to hepatic lipoprotein receptors. Previously, the apo B,E(LDL) receptor and a unique apo E-binding protein (referred to as the apo E receptor) were isolated from solubilized canine and human livers. In the present study, the apo E-binding fraction was further characterized and found to contain at least three proteins, all of which bind apo E-containing lipoproteins with high affinity. The 56-kDa band was found to contain the alpha- and beta-subunits of F1-ATPase, presumably derived from mitochondrial membranes. In addition, an apo E-binding protein with an apparent Mr approximately equal to 59,000 was identified. The 59-kDa protein displays calcium-independent binding on ligand blots, but displays both calcium-dependent and -independent binding in assays performed with detergent-solubilized protein. The 59-kDa protein recognized lipid-free as well as lipid-bound apo E in ligand blots, and also bound apo E-2, apo E-3, and apo E-4 in a comparable way. Monoclonal antibodies produced against the 59-kDa protein did not react with the 56-kDa proteins. Normal human liver, as well as the liver of a patient lacking the apo B,E(LDL) receptor, possessed the 56-kDa and 59-kDa proteins. These data indicate that liver cells possess at least three proteins, in addition to the apo B,E(LDL) receptor, that bind apo E-containing lipoproteins with high affinity. The physiological role of these proteins in apo E metabolism remains to be determined.
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| http://dx.doi.org/10.1161/01.atv.8.3.288 | DOI Listing |
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